A distributed control system includes a plurality of PLCs which are connected together via active and backup transmission lines which are opposite in transmission direction. Each of the PLCs includes a diagnosis command sending program for sending a diagnosis command, via a diagnosis-command transmission line, which is one of the active transmission line and the backup transmission line, to a PLC located downstream on the diagnosis-command transmission line; and an acknowledgment returning program, operable upon receipt of the diagnosis command, for returning an acknowledgement response for the diagnosis command, via an acknowledgment-response transmission line, which is the other of the active transmission line and the backup transmission line, to a PLC located downstream on the acknowledgment-response transmission line.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A distributed control system in which a plurality of PLCs is connected together via active and backup transmission lines which are opposite in transmission direction, wherein each of the PLCs comprises: diagnosis command sending means for sending a diagnosis command, via a diagnosis-command transmission line, which is one of the active transmission line and the backup transmission line, to a PLC located downstream on the diagnosis-command transmission line; and acknowledgment-response returning means, operable upon receipt of the diagnosis command, for returning an acknowledgement response for the diagnosis command, via an acknowledgment-response transmission line, which is the other of the active transmission line and the backup transmission line, to a PLC located downstream on the acknowledgment-response transmission line.
2. The distributed control system according to claim 1 , wherein each of the PLCs comprises: wire-breakage-anomaly determination means for determining that a signal line which forms at least one of the diagnosis-command transmission line and the acknowledgment-response transmission line is broken when the acknowledgment response is not received from a PLC located upstream on the acknowledgment-response transmission line within a predetermined time after the diagnosis command sending means sends the diagnosis command; and reverse-connection-anomaly determination mean for determining that a signal line which forms at least one of the diagnosis-command transmission line and the acknowledgment-response transmission line is reversely connected when the diagnosis command is received, in place of the acknowledgment response, from the PLC located upstream on the acknowledgment-response transmission line within the predetermined time after the diagnosis command sending means sends the diagnosis command.
3. The distributed control system according to claim 2 , wherein the PLCs include one master PLC and at least one slave PLC, and wherein the slave PLC comprises: wire-breakage anomaly information sending means for transmitting anomaly information indicative of a wire-breakage anomaly to the master PLC via the acknowledgment-response transmission line when the wire-breakage-anomaly determination means determines that a wire-breakage anomaly has occurred; and reverse-connection anomaly information sending means for transmitting anomaly information indicative of a reverse-connection anomaly to the master PLC via the acknowledgment-response transmission line when the reverse-connection-anomaly determination means determines that a reverse-connection anomaly has occurred.
4. The distributed control system according to claim 1 , wherein the PLCs include one master PLC and at least one slave PLC, and wherein the diagnosis command sending means of the master PLC sends the diagnosis command to a slave PLC located downstream on the diagnosis-command transmission line as a trigger for a system diagnosis; and upon receipt of the diagnosis command, the diagnosis command sending means of the slave PLC sends the diagnosis command to the master PLC or a slave PLC located downstream on the diagnosis-command transmission line.
5. The distributed control system according to claim 4 , wherein the system comprises a plurality of slave PLCs, and wherein every time the diagnosis command is sent from the diagnosis command sending means of each slave PLC, identification information for identifying the slave PLC is cumulatively added to the diagnosis command.
6. The distributed control system according to claim 5 , wherein each of the slave PLCs comprises: anomaly determination means for determining that a system anomaly has occurred when the acknowledgment response is not received from the master PLC or a slave PLC located downstream on the diagnosis-command transmission line within a set time after the diagnosis command sending means sends the diagnosis command; and anomaly-information-added-command sending means, operable when the anomaly determination means determines that a system anomaly has occurred, for generating an anomaly-information-added command by adding anomaly information to the diagnosis command received from the slave PLC or the master PLC, and transmitting the anomaly-information-added command to the master PLC via the acknowledgment-response transmission line.
7. The distributed control system according to claim 1 , which performs a regular-direction system diagnosis in which the active transmission line is selected as the diagnosis-command transmission line and the backup transmission line is selected as the acknowledgment-response transmission line, and a reverse-direction system diagnosis in which the backup transmission line is selected as the diagnosis-command transmission line and the active transmission line is selected as the acknowledgment-response transmission line.
8. The distributed control system according to claim 1 wherein the topology of the active transmission line and the backup transmission line is of a ring type.
9. A distributed control system in which a plurality of PLCs is connected together via active and backup transmission lines which are opposite in transmission direction and which have a ring-type topology, wherein each of the PLCs comprises: regular direction diagnosis command sending means for sending a diagnosis command to a PLC located downstream on the active transmission line via the active transmission line whose transmission direction is the regular direction; and reverse direction diagnosis command sending means for sending a diagnosis command to a PLC located downstream on the backup transmission line via the backup transmission line whose transmission direction is opposite to the regular direction, wherein the PLCs includes a master PLC which administers system diagnosis and at least one slave PLC; the regular direction diagnosis command sending means and the reverse direction diagnosis command sending means of the master PLC send the diagnosis command to the slave PLC as a trigger for system diagnosis; and upon receipt of the diagnosis command, the regular direction diagnosis command sending means and the reverse direction diagnosis command sending means of the slave PLC send the diagnosis command to another slave PLC or the master PLC.
10. The distributed control system according to claim 1 , further comprising a reporting device for reporting an anomaly when the anomaly has occurred in the distributed control system.
11. The distributed control system according to claim 10 , wherein the reporting device includes display means for graphically displaying an anomalous portion of the distributed control system.
12. The distributed control system according to claim 10 , wherein the reporting device reports a wire-breakage anomaly of a signal line which forms at least one of the diagnosis-command transmission line and the acknowledgment-response transmission line, and a reverse-connection anomaly of a signal line which forms at least one of the diagnosis-command transmission line and the acknowledgment-response transmission line.
13. The distributed control system according to claim 12 , wherein the reporting device includes display means for graphically displaying an anomalous portion of the distributed control system such that the wire-breakage anomaly and the reverse-connection anomaly are displayed in different manners.
14. The distributed control system according to claim 9 , further comprising a reporting device connected to the master PLC for reporting an anomaly occurred in the distributed control system.
15. The distributed control system according to claim 14 , wherein the reporting device includes display means for graphically displaying an anomalous portion in the distributed control system.
16. The distributed control system according to claim 14 , wherein the reporting device includes display means for graphically displaying an anomalous portion of the distributed control system such that the wire-breakage anomaly and the reverse-connection anomaly are displayed in different manners.
17. The distributed control system according to claim 9 , further comprising acknowledgment-response returning means, operable upon receipt of the diagnosis command, for returning an acknowledgement response for the diagnosis command, via an acknowledgment-response transmission line, which is the other of the active transmission line and the backup transmission line, to a PLC located downstream on the acknowledgment-response transmission line.
18. The distributed control system according to claim 9 , wherein only the master PLC is connected to a computer having a monitor.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
April 5, 2006
June 30, 2009
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.